1982
DOI: 10.1007/978-3-642-68651-1_10
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The Neurophysiology of the Mammalian Suprachiasmatic Nucleus and Its Visual Afferents

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Cited by 18 publications
(5 citation statements)
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“…Photic entrainment of drinking rhythms in the rat was not altered by damage to the geniculate region (Donaldson and Stephan, 1982) or to the primary optic tracts, which supply the retinal input to this area (Stephan and Zucker, 1972). One report described changes in SCN photic responses in rats after geniculate lesions (Groos and Mason, 1978), but a subsequent study failed to replicate these effects (Groos, 1982). Recent anatomical work has established that, in the rat and hamster, at least some of the neurons of the GHT may be identified by their immunoreactivity to neuropeptide Y (Card and Moore, 1982;Harrington et al, 1985).…”
mentioning
confidence: 86%
“…Photic entrainment of drinking rhythms in the rat was not altered by damage to the geniculate region (Donaldson and Stephan, 1982) or to the primary optic tracts, which supply the retinal input to this area (Stephan and Zucker, 1972). One report described changes in SCN photic responses in rats after geniculate lesions (Groos and Mason, 1978), but a subsequent study failed to replicate these effects (Groos, 1982). Recent anatomical work has established that, in the rat and hamster, at least some of the neurons of the GHT may be identified by their immunoreactivity to neuropeptide Y (Card and Moore, 1982;Harrington et al, 1985).…”
mentioning
confidence: 86%
“…For example, intraocular oscillators control photoreceptor shedding in rat and Xenopus Flannery and Fisher, 1984) and retinal N-acetyltransferase activity in Xenopus (Besharse and Iuvone, 1983). Terman and Terman (1985) reported that the circadian rhythm in rat visual sensitivity persisted after lesioning the suprachiasmatic nucleus (SCN), the putative location of the circadian oscillator in the mammalian central nervous system (see Groos, 1982;Moore and Card, 1985). Intraocular circadian oscillators have also been detected in invertebrates, e.g., Aplysia (Jacklet, 1969) and Bulla (Block and Wallace, 1982).…”
Section: Location Of Circadian Oscillatorsmentioning
confidence: 99%
“…We have attempted to integrate experimental data from different fields-visual system neuroanatomy and physiology, retinal and pineal neurochemistry, psychophysics, and circadian physiology-which, when taken together, lend plausibility to the existence of a mammalian ocular timing system. Certain retinal oscillator functions may be capable of self-sustained circadian timing without direct input into the SCN, while still serving as a dynamic gate for the amount of light information available to the SCN (Groos, 1982;Groos and Meijer, 1985). Under a light-dark (LD) cycle, these rhythms attain a reliable phase position, which can be shifted by changes in timing of the external photic zeitgeber.…”
Section: Introduction the Possibility Of Ocular Timingmentioning
confidence: 99%